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Disambiguation of "Boecker, Henning"

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Frequency-correlated decreases of motor cortex activity associated with subthalamic nucleus stimulation in Parkinson's disease.

, , , , and . NeuroImage, 28 (3): 598-606 (2005)

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Maximilian Henning University of Stuttgart

Henning Schlüter University of Stuttgart

Johanna Henning University of Stuttgart

Dr. Henning Baars University of Stuttgart

Jörn Henning Matthies University of Stuttgart

 

Other publications of authors with the same name

Repeated pain induces adaptations of intrinsic brain activity to reflect past and predict future pain., , , , , , , , and . NeuroImage, 57 (1): 206-213 (2011)COMT Val108/158Met genotype affects the mu-opioid receptor system in the human brain: Evidence from ligand-binding, G-protein activation and preproenkephalin mRNA expression., , , , , , , and . NeuroImage, 28 (1): 185-193 (2005)A role of the basal ganglia and midbrain nuclei for initiation of motor sequences., , , and . NeuroImage, 39 (3): 1356-1369 (2008)Force level independent representations of predictive grip force-load force coupling: A PET activation study., , , , , , , and . NeuroImage, 25 (1): 243-252 (2005)Transmodal Sensorimotor Networks during Action Observation in Professional Pianists., , , , , and . J. Cognitive Neuroscience, 17 (2): 282-293 (2005)Corrigendum to 'Repeated pain induces adaptations of intrinsic brain activity to reflect past and predict future pain' NeuroImage 57/1 (2011) 206-213., , , , , , , , and . NeuroImage, 62 (3): 2176 (2012)Frequency-correlated decreases of motor cortex activity associated with subthalamic nucleus stimulation in Parkinson's disease., , , , and . NeuroImage, 28 (3): 598-606 (2005)A perspective on the future role of brain pet imaging in exercise science., and . NeuroImage, (2016)Distinct striatal regions for planning and executing novel and automated movement sequences., , , and . NeuroImage, 44 (4): 1369-1379 (2009)Visual attention in preterm born adults: Specifically impaired attentional sub-mechanisms that link with altered intrinsic brain networks in a compensation-like mode., , , , , , , , , and 7 other author(s). NeuroImage, (2015)